Hazem Nounou scite author profile

This paper considers the problem of learning the structure of gene regulatory networks from gene expression time series data. A more realistic scenario when the state space model representing a gene network evolves nonlinearly is considered while a linear model is assumed for the microarray data. To capture the nonlinearity, a particle filter-based state estimation algorithm is considered instead of the contemporary linear approximation-based approaches. The parameters characterizing the regulatory relations among various genes are estimated online using a Kalman filter. Since a particular gene interacts with a few other genes only, the parameter vector is expected to be sparse. The state estimates delivered by the particle filter and the observed microarray data are then subjected to a LASSO-based least squares regression operation which yields a parsimonious and efficient description of the regulatory network by setting the irrelevant coefficients to zero. The performance of the aforementioned algorithm is compared with the extended Kalman filter (EKF) and Unscented Kalman Filter (UKF) employing the Mean Square Error (MSE) as the fidelity criterion in recovering the parameters of gene regulatory networks from synthetic data and real biological data. Extensive computer simulations illustrate that the proposed particle filter-based network inference algorithm outperforms EKF and UKF, and therefore, it can serve as a natural framework for modeling gene regulatory networks with nonlinear and sparse structure.

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Fault detection using multiscale PCA-based moving window GLRT

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Mansouri

Karim

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Journal of Process Control

111

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Hidden Markov model based principal component analysis for intelligent fault diagnosis of wind energy converter systems

et al. 2020

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PLS-based EWMA fault detection strategy for process monitoring

Harrou

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et al. 2015

Journal of Loss Prevention in the Process Industries

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Hazem Nounou

Statistical fault detection using PCA-based GLR hypothesis testing

Inferring Gene Regulatory Networks via Nonlinear State-Space Models and Exploiting Sparsity

Fault detection using multiscale PCA-based moving window GLRT

Hidden Markov model based principal component analysis for intelligent fault diagnosis of wind energy converter systems

PLS-based EWMA fault detection strategy for process monitoring

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